Oil Deodorising: New Technologies and Solutions to Improve ......2019/07/29 · Chia Ing Chuk Asst....
Transcript of Oil Deodorising: New Technologies and Solutions to Improve ......2019/07/29 · Chia Ing Chuk Asst....
Chia Ing ChukAsst. Technical Manager
Desmet Ballestra Malaysia
Oil Deodorising: New Technologies and Solutions to Improve Final Edible Oil Quality
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Deodorising: Crucial Part of The Refining Process
CPO
Degumming
Bleaching
Deodorising
Hydrating gums (converting non-hydratable gums to hydratable gums)…
Adsorbing impurities, breaking down pigments…
Removing FFA, eliminating taste and odour, improving stability, heat bleaching…
RBDPO
Crude Palm Oil
Refined, Bleached, Deodorised Palm Oil
Deodorising: RBDPO Specifications
Refined, Bleached, DeodorisedPalm Oil (RBDPO) PORAM Spec Industry
FFA (% palmitic acid): 0.1% max 0.05% maxM&I: 0.1% max 0.05% maxColour (5.25″ Lovibond cell): 3 red max 2.5 red maxM.Pt (AOCS Cc 3-25): 33-39°C Not specifiedIV (Wijs): 50-55 51.5-52.5
PV: Not specified NilTaste: Not specified BlandP: Not specified 3 ppm max
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1. Heat Recovery
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2. Final Heating3. FFA Stripping
4. Retention Time
Deodorising: The Conventional Route
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Deodorising: Driving Force for Development
REFINING PROCESS
PLANT EFFICIENCY
OIL QUALITY PROCESS SUSTAINABILITY
Drivers for new developments in Edible Oil Processing
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Desmet Ballestra QualistockTM+ DeodoriserHeat Recovery• High heat recovery efficiency up
to 80-90%. Final Heating• Pigtail coils. Free vertical
expansion of coil bundles, less risk of failure.
• Reduced neutral oil carryover.-------------------------------------------------• Oil heating and cooling under
vacuum conditions, reduced oxidation potentials.
• Space saving, reduced installation and structural cost as compared to external heat exchanger.
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Desmet Ballestra QualistockTM+ Deodoriser
Fatty Acids Stripping• FFA stripping by packed column
to increase contact surface of oil and steam, reduced sparging steam usage as compared to FFA stripping only by deodorising tray.
• Directly under packed scrubber, under lowest vacuum pressure.
• Reuse sparging steam injected in lower trays for stripping.
Deodorising Trays• Special chimney design to reduce
neutral oil carryover and eliminate the need to segregate splash oil.
• Sparging by mammoth pump, providing high oil circulation rate to increase steam and oil contact.
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Desmet Ballestra QualistockTM+ Deodoriser
Deodorised Oil Buffer Tray• Sparging steam to prevent FFA
vapour from condensing back into product oil.
• Possibility of antioxidant dosage under vacuum conditions.
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Edible Oil Refining: Unwanted Components and Contaminants
Crude Oil Refined OilREFINING
Foreign
Pesticides
PAHC’s
PCB
Dioxines
Aflatoxines
...
Oil related
Gums
FFA
Color bodies
Oxidation products
Metals
...
Process related
TFA
Polymers
Acrolein
Dialkylketones
3-MCPDE/GE
...With improving analytical detection methods more “unwanted”
componenents are and will be found in the oil (eg. 3-MCPDE/GE)
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Edible Oil Refining: 3-MCPD and GE
0 500 1000 1500 2000 2500 3000 3500 4000Concentration (µg/kg)
2-MCPD3-MCPDGE
Levels of MCPDE and GE in food oils (2012-2015)
Mean Concentration (ppm) in 2015
Oil 3-MCPD GE
soybean
rapeseed
palm
0.4
0.2
3
0.2
0.2
4
Highest levels of 3-MCPD esters and GE are found in
palm oil
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Edible Oil Refining: 3-MCPD and GE
= 1 ppm
= 0.5 ppm
Ammendment to EC regulation 1881/2006 for GE
EFSA concluded that glycidolis carcinogenic and genotoxic
EU decided that max. levels forGE in vegetable oils
No max. levels (yet) for 3-MCPD in food oils
New max. levels adoptedin 2018
Max. levels expressed as free glycidyl
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Edible Oil Refining: 3-MCPD and GE
3-monochloropropane diol (3-MCPD) Esters
Glycidyl Esters (GE)
Main precursors
3-MCPDE ← “Chlorine”
Critical Refining Stage: Degumming/Bleaching
Main precursors
GE ← “DAG”
Critical Refining Stage: Deodorising
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GE Formation: Effect of Time and Temperature
Time (hr)
Gly
cidy
l est
ers
(ppm
)
- Almost no net formation of Glycidyl esters at T < 230°C.- Very fast formation at T > 240°C.
0
2
4
6
8
10
12
14
16
18
20
0 1 2 3 4 5 6
260°C
240°C230°C
220°C
3 mbar 1% SS
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GE Formation: Effect of Packed FFA Stripping Column
Temperature(°C)
GE (ppm)
Color(R – 5,25”)
FFA (% C16:0)
220 0.10 20 0.12
230 0.14 19 0,09
240 0.17 14 0,07
260 0.20 12 0,04
Dual temp high temp fast stripping / low temp mild deodorisation
Short residence time at high(er) temperature gives: - Almost no formation of glycidyl esters, even at T > 240°C- Very efficient FFA stripping but only limited heat bleaching
10 min, 0.5% SS
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GE Mitigation: Post Stripping
0
0.5
1
1.5
2
2.5
3
3.5
4
4.5
0 2 4 6 8 10 12 14
Sparge steam (kg/ton)
Gly
cidy
l (pp
m)
200°C
210°C
230°C260°C
Top pressure : 1.5 mbar
GE Post-stripping will not only reduce GE, but will also create additional losses as other components will also be stripped (Toco, MAG, …)
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GE Mitigation: Post Refining
0
1
2
3
4
5
6
0 1 2 3 4Sample number
3-M
CPD
+ G
E (p
pm)
RBD PO
Post-bleached
Redeodorizedat 260°C
Redeodorizedat 230°C
GE may again be formed during post-deodorization
low deodorization temperature required
4.3
0.1
2.8
0.3
Elimination of GE from Refined Palm Oil
Glycidyl esters (ppm
)
Post-bleaching : 0.5% Activated BE, 110°C, 30 min. Post-deodo : 0.5% stripping steam, 3 mbar, 60 min.
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Conventional Barometric Water Vacuum System
TTTT
To Dirty WaterCooling System
Item 832B
Steam
Steam
Steam
841AVACUUM
PRODUCTION UNIT
From Deodorization Section
Item 822
Steam
PSV
ATM
Barometric Water
832AHOT WELL
Condensate
Condensate
ATM
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Ice Condensing Vacuum System: Working Principle
To introduce a sublimation step ahead of the compression step, turning steam to ice.
Compressor
Condenser
Separator
Cooling waterFrom FAscrubber
Vapour (vacuum)Refrigerant (ammonia)Non-condensables
Valve, closedValve, open
Melt vessel
CondensateSteam
Tode-aeration
Process vapor Water Ammonia
Icecondenser
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Ice Condensing Vacuum System: Advantages
• Motive steam and cooling water for downstream vacuum production unit (designed for deaeration only) saves motive steam or cooling water as compared to conventional vacuum system.
• Vacuum system related utilities can be optimised based on different processing parameters.
• Example: Plant designed to accommodate GE stripping (which uses more sparging steam). When low GE oil is not required, sparging steam is reduced. Icing time of sublimators can be increased, thus reducing the frequency for de-icing (optimisation of heat).
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Desmet Ballestra SublimaxTM 2GSublimax: Vertical, with Falling film ammonia evaporation
Classical: Horizontal, with convective boiling liquid tubes
NH3 mass: <100 kg NH3 mass: >>100 kg
Ammonia liquid
Ammonia vapour
Tube
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Desmet Ballestra SublimaxTM 2G
Hot WaterIN
De-Icing
De-aerationMelting waterdischarge
Ammonia IN
Ammonia OUT
Benefits• Long icing time: Energy saving and
reduced chiller peak load.• Low pressure drop: Low suction
deaeration group not required.• Self draining: Both refrigerant and
melted ice.• De-icing: Hot water spraying for
effective tube cleaning• Safety: Minimal welding joints, low
ammonia hold up volume.
Infant food
food
personal care
oleochemicals
biodiesel
palm oil
Objective parametersDOBI > 2.5?FFA < 3.5?
?
CPO quality key determining factor in mitigation of 3-MCPDE & GEIndustry to adopt new best practices to ensure highest CPO quality for foodClear need for segregation of good & excellent Q for food vs rest for non-food
PO Industry today can produce good-excellent quality food oil (70% FFA < 3.5%, DOBI >2.5) which equals the amount of PO used in food, so where is the problem?
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- Washing of fresh CPO: at 90°C, addition of 5% water followed by mechanical agitation (5 min) & centrifugation
- Bleaching: CPO mixed with 0.15% citric acid (30% solution) at 85°C for 10 min, followed by bleaching with BE (Oil- Dri Pure Flo B-80), at 105 °C, 50 mbar, 30 min, & then filtered (1% for good-excellent; 1.5% average-poor quality)
- Deodorization: dual temperature deodorization at 240°C for 10 min followed by220°C for 120 min; steam 2% (0.8+1.2%); 3 mbar vacuum.
- Neutralization: CPO high shear mixed at 85°C with NaOH solution (14%; 10%molar excess). 3% water added, maturation 10 min & centrifugation
Effect CPO origin on 3-MCPDE/GE formation: Quality does matter !
3 types of CPO tested: FFA % DOBI
Excellent 1.3 3.4Good 3.4 2.6Poor 6.0 1.7
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Feedstock RBD POGood quality
RBD PO Good quality
RBD PO Excellent quality
RBD PO Excellent quality
Treatment Unwashed physical refining
Washed physical refining
Unwashed physical refining
Unwashed Chemical refining
FFA % (16:0) 0.04 0.04 0.03 0.02Color Lovibond 51/4 cell
2.0R/51Y 2.2R/57Y 1.2R/28Y 0.7R/16Y
3-MCPD (ppm)1
2-MCPD (ppm)GE (ppm)
1.210.660.40
0.340.210.42
0.460.250.27
0.080.050.24
Effect CPO origin: Quality does matter !
CPO: 3.4% FFA / DOBI 2.6 CPO: 1.3% FFA / DOBI 3.4
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Feedstock RBD POGood quality
RBD PO Good quality
RBD PO Poor quality
RBD PO Poor quality
Treatment Unwashed physical refining
Washed physical refining
Unwashed physical refining
Unwashed Chemical refining
FFA % (16:0) 0.04 0.04 0.06 0.02Color Lovibond 51/4 cell
2.0R/51Y 2.2R/57Y 6.0R/70Y 2.4R/39Y
3-MCPD (ppm)1
2-MCPD (ppm)GE (ppm)
1.210.660.40
0.340.210.42
2.781.310.59
1.760.790.52
Effect CPO origin: Quality does matter !
CPO: 3.4% FFA / DOBI 2.6 CPO: 6.0% FFA / DOBI 1.7
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